Human antibody recognition of H7N9 influenza virus HA following natural infection.

Iuliia M Gilchuk,Sandhya Bangaru,Hannah L Turner,Nurgun Kose,Robert H Carnahan,Andrew B Ward,Robin G Bombardi,James E Crowe,Sheng Li,Andrew Trivette

doi:10.1172/jci.insight.152403

Iuliia M Gilchuk, Sandhya Bangaru + Show 8 more

Open Access

https://doi.org/10.1172/jci.insight.152403

Copy DOI

Abstract

Avian H7N9 influenza viruses cause sporadic outbreaks of human infections and threaten to cause a major pandemic. The breadth of B cell responses to natural infection and the dominant antigenic sites recognized during first exposure to H7 HA following infection are incompletely understood. Here, we studied the B cell response to H7 HA of 2 individuals who had recovered from natural H7N9 virus infection. We used competition binding, hydrogen-deuterium mass spectrometry, and single-particle negative stain electron microscopy to identify the patterns of molecular recognition of the antibody responses to H7 HA. We found that circulating H7-reactive B cells recognized a diverse antigenic landscape on the HA molecule, including HA head domain epitopes in antigenic sites A and B and in the trimer interface-II region and epitopes in the stem region. Most H7 antibodies exhibited little heterosubtypic breadth, but many recognized a wide diversity of unrelated H7 strains. We tested the antibodies for functional activity and identified clones with diverse patterns of inhibition, including neutralizing, hemagglutination- or egress-inhibiting, or HA trimer–disrupting activities. Thus, the human B cell response to primary H7 natural infection is diverse, highly functional, and broad for recognition of diverse H7 strains.

Highlights

Influenza A viruses (IAVs) are categorized based on their surface proteins, HA and neuraminidase (NA), into 16 and 9 subtypes, respectively [1]
We obtained peripheral blood mononuclear cells (PBMCs) and blood samples from 2 individuals born before 1968, approximately 11 months after recovery from naturally occurring laboratory-confirmed H7N9 influenza virus infection acquired in China [27]
PBMCs were transformed with Epstein-Barr virus and other B cell stimuli, as previously described [28, 29], and the average number of cell clusters forming transformed B lymphoblastoid cell lines (LCLs) per well was determined

Summary

Introduction

Influenza A viruses (IAVs) are categorized based on their surface proteins, HA and neuraminidase (NA), into 16 and 9 subtypes, respectively [1]. Heterosubtypic protective responses to H7N9 are driven partly by preexisting immunity against seasonal influenza H3N2 viruses, which are related at the genotypic and antigenic level to the H7 HA. This response includes HA stem-targeting human mAbs [25]. H7N9 disease in humans is associated with decreased mortality in those born after 1968, which correlates with the time that seasonal H3N2 viruses first appeared in the human population [26] These snapshots of human B cell immunity to H7N9 infection are intriguing; comprehensive knowledge regarding the breadth, targeted epitopes, and functional activities of H7-reactive mAbs elicited by natural H7N9 infection remains limited

Methods

Results

Conclusion